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Commit cdbf65f5 authored by Robert Schmidt's avatar Robert Schmidt
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revise RAN API 

- when changing values RC.rrc[i]->configuration should be changed too
- then, RRC_RECONFIGURATION_REQ will pass the changed conf down until PHY
- give warnings at functions that are not implemented

- rename functions
flexran_get_tdd_ack_nack_feedback() -> flexran_get_tdd_ack_nack_feedback_mode()
flexran_get_ue_pmi() -> flexran_get_ue_wpmi()
parent 6198a673
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openair2/ENB_APP/flexran_agent_ran_api.c
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openair2/ENB_APP/flexran_agent_ran_api.h
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......@@ -50,23 +50,23 @@
* get generic info from RAN
****************************/
void flexran_set_enb_vars(mid_t mod_id, ran_name_t ran);
void flexran_set_RC_vars(mid_t mod_id, ran_name_t ran);
int flexran_get_current_time_ms (mid_t mod_id, int subframe_flag);
uint32_t flexran_get_current_time_ms(mid_t mod_id, int subframe_flag);
/*Return the current frame number
*Could be using implementation specific numbering of frames
*/
unsigned int flexran_get_current_frame(mid_t mod_id);
frame_t flexran_get_current_frame(mid_t mod_id);
/*Return the current SFN (0-1023)*/
unsigned int flexran_get_current_system_frame_num(mid_t mod_id);
frame_t flexran_get_current_system_frame_num(mid_t mod_id);
unsigned int flexran_get_current_subframe(mid_t mod_id);
sub_frame_t flexran_get_current_subframe(mid_t mod_id);
/*Return the frame and subframe number in compact 16-bit format.
Bits 0-3 subframe, rest for frame. Required by FlexRAN protocol*/
uint16_t flexran_get_sfn_sf (mid_t mod_id);
uint16_t flexran_get_sfn_sf(mid_t mod_id);
/* Return a future frame and subframe number that is ahead_of_time
subframes later in compact 16-bit format. Bits 0-3 subframe,
......@@ -77,144 +77,151 @@ uint16_t flexran_get_future_sfn_sf(mid_t mod_id, int ahead_of_time);
int flexran_get_num_ues(mid_t mod_id);
/* Get the rnti of a UE with id ue_id */
int flexran_get_ue_crnti (mid_t mod_id, mid_t ue_id);
rnti_t flexran_get_ue_crnti(mid_t mod_id, mid_t ue_id);
/* Get the RLC buffer status report of a ue for a designated
logical channel id */
int flexran_get_ue_bsr (mid_t mod_id, mid_t ue_id, lcid_t lcid);
uint8_t flexran_get_ue_bsr(mid_t mod_id, mid_t ue_id, lcid_t lcid);
/* Get power headroom of UE with id ue_id */
int flexran_get_ue_phr (mid_t mod_id, mid_t ue_id);
int8_t flexran_get_ue_phr(mid_t mod_id, mid_t ue_id);
/* Get the UE wideband CQI */
int flexran_get_ue_wcqi (mid_t mod_id, mid_t ue_id);
uint8_t flexran_get_ue_wcqi(mid_t mod_id, mid_t ue_id);
/* Get the transmission queue size for a UE with a channel_id logical channel id */
int flexran_get_tx_queue_size(mid_t mod_id, mid_t ue_id, logical_chan_id_t channel_id);
rlc_buffer_occupancy_t flexran_get_tx_queue_size(mid_t mod_id, mid_t ue_id, logical_chan_id_t channel_id);
/*Get number of pdus in RLC buffer*/
int flexran_get_num_pdus_buffer(mid_t mod_id, mid_t ue_id, logical_chan_id_t channel_id);
rlc_buffer_occupancy_t flexran_get_num_pdus_buffer(mid_t mod_id, mid_t ue_id, logical_chan_id_t channel_id);
/* Get the head of line delay for a UE with a channel_id logical channel id */
int flexran_get_hol_delay(mid_t mod_id, mid_t ue_id, logical_chan_id_t channel_id);
frame_t flexran_get_hol_delay(mid_t mod_id, mid_t ue_id, logical_chan_id_t channel_id);
/* Check the status of the timing advance for a UE */
short flexran_get_TA(mid_t mod_id, mid_t ue_id, int CC_id);
int32_t flexran_get_TA(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
/* Update the timing advance status (find out whether a timing advance command is required) */
void flexran_update_TA(mid_t mod_id, mid_t ue_id, int CC_id);
/* Update the timing advance status(find out whether a timing advance command is required) */
/* currently broken
void flexran_update_TA(mid_t mod_id, mid_t ue_id, uint8_t cc_id); */
/* Return timing advance MAC control element for a designated cell and UE */
int flexran_get_MAC_CE_bitmap_TA(mid_t mod_id, mid_t ue_id, int CC_id);
/* this function is broken */
int flexran_get_MAC_CE_bitmap_TA(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
/* Get the number of active component carriers for a specific UE */
int flexran_get_active_CC(mid_t mod_id, mid_t ue_id);
/* Get the rank indicator for a designated cell and UE */
int flexran_get_current_RI(mid_t mod_id, mid_t ue_id, int CC_id);
uint8_t flexran_get_current_RI(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
/* See TS 36.213, section 10.1 */
int flexran_get_n1pucch_an(mid_t mod_id, int CC_id);
uint16_t flexran_get_n1pucch_an(mid_t mod_id, uint8_t cc_id);
/* See TS 36.211, section 5.4 */
int flexran_get_nRB_CQI(mid_t mod_id, int CC_id);
uint8_t flexran_get_nRB_CQI(mid_t mod_id, uint8_t cc_id);
/* See TS 36.211, section 5.4 */
int flexran_get_deltaPUCCH_Shift(mid_t mod_id, int CC_id);
uint8_t flexran_get_deltaPUCCH_Shift(mid_t mod_id, uint8_t cc_id);
/* See TS 36.211, section 5.7.1 */
int flexran_get_prach_ConfigIndex(mid_t mod_id, int CC_id);
uint8_t flexran_get_prach_ConfigIndex(mid_t mod_id, uint8_t cc_id);
/* See TS 36.211, section 5.7.1 */
int flexran_get_prach_FreqOffset(mid_t mod_id, int CC_id);
uint8_t flexran_get_prach_FreqOffset(mid_t mod_id, uint8_t cc_id);
/* See TS 36.321 */
int flexran_get_maxHARQ_Msg3Tx(mid_t mod_id, int CC_id);
uint8_t flexran_get_maxHARQ_Msg3Tx(mid_t mod_id, uint8_t cc_id);
/* Get the length of the UL cyclic prefix */
int flexran_get_ul_cyclic_prefix_length(mid_t mod_id, int CC_id);
lte_prefix_type_t flexran_get_ul_cyclic_prefix_length(mid_t mod_id, uint8_t cc_id);
/* Get the length of the DL cyclic prefix */
int flexran_get_dl_cyclic_prefix_length(mid_t mod_id, int CC_id);
lte_prefix_type_t flexran_get_dl_cyclic_prefix_length(mid_t mod_id, uint8_t cc_id);
/* Get the physical cell id of a cell */
int flexran_get_cell_id(mid_t mod_id, int CC_id);
uint16_t flexran_get_cell_id(mid_t mod_id, uint8_t cc_id);
/* See TS 36.211, section 5.5.3.2 */
int flexran_get_srs_BandwidthConfig(mid_t mod_id, int CC_id);
uint8_t flexran_get_srs_BandwidthConfig(mid_t mod_id, uint8_t cc_id);
/* See TS 36.211, table 5.5.3.3-1 and 2 */
int flexran_get_srs_SubframeConfig(mid_t mod_id, int CC_id);
uint8_t flexran_get_srs_SubframeConfig(mid_t mod_id, uint8_t cc_id);
/* Boolean value. See TS 36.211,
section 5.5.3.2. TDD only */
int flexran_get_srs_MaxUpPts(mid_t mod_id, int CC_id);
uint8_t flexran_get_srs_MaxUpPts(mid_t mod_id, uint8_t cc_id);
/* Get number of DL resource blocks */
int flexran_get_N_RB_DL(mid_t mod_id, int CC_id);
uint8_t flexran_get_N_RB_DL(mid_t mod_id, uint8_t cc_id);
/* Get number of UL resource blocks */
int flexran_get_N_RB_UL(mid_t mod_id, int CC_id);
uint8_t flexran_get_N_RB_UL(mid_t mod_id, uint8_t cc_id);
/* Get number of resource block groups */
int flexran_get_N_RBG(mid_t mod_id, int CC_id);
uint8_t flexran_get_N_RBG(mid_t mod_id, uint8_t cc_id);
/* Get DL/UL subframe assignment. TDD only */
int flexran_get_subframe_assignment(mid_t mod_id, int CC_id);
uint8_t flexran_get_subframe_assignment(mid_t mod_id, uint8_t cc_id);
/* TDD only. See TS 36.211, table 4.2.1 */
int flexran_get_special_subframe_assignment(mid_t mod_id, int CC_id);
uint8_t flexran_get_special_subframe_assignment(mid_t mod_id, uint8_t cc_id);
/* Get the duration of the random access response window in subframes */
int flexran_get_ra_ResponseWindowSize(mid_t mod_id, int CC_id);
long flexran_get_ra_ResponseWindowSize(mid_t mod_id, uint8_t cc_id);
/* Get timer used for random access */
int flexran_get_mac_ContentionResolutionTimer(mid_t mod_id, int CC_id);
long flexran_get_mac_ContentionResolutionTimer(mid_t mod_id, uint8_t cc_id);
/* Get type of duplex mode (FDD/TDD) */
int flexran_get_duplex_mode(mid_t mod_id, int CC_id);
/* Get type of duplex mode(FDD/TDD) */
Protocol__FlexDuplexMode flexran_get_duplex_mode(mid_t mod_id, uint8_t cc_id);
/* Get the SI window length */
long flexran_get_si_window_length(mid_t mod_id, int CC_id);
long flexran_get_si_window_length(mid_t mod_id, uint8_t cc_id);
/* Get length of SystemInformationBlock1 */
uint8_t flexran_get_sib1_length(mid_t mod_id, uint8_t cc_id);
/* Get the number of PDCCH symbols configured for the cell */
int flexran_get_num_pdcch_symb(mid_t mod_id, int CC_id);
uint8_t flexran_get_num_pdcch_symb(mid_t mod_id, uint8_t cc_id);
int flexran_get_antenna_ports(mid_t mod_id, int CC_id);
uint8_t flexran_get_antenna_ports(mid_t mod_id, uint8_t cc_id);
/* See TS 36.213, sec 5.1.1.1 */
int flexran_get_tpc(mid_t mod_id, mid_t ue_id);
int flexran_get_tpc(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
int flexran_get_ue_pmi(mid_t mod_id);
uint8_t flexran_get_ue_wpmi(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
/* Get the first available HARQ process for a specific cell and UE during
a designated frame and subframe. Returns 0 for success. The id and the
status of the HARQ process are stored in id and status respectively */
int flexran_get_harq(const mid_t mod_id, const uint8_t CC_id, const mid_t ue_id,
const int frame, const uint8_t subframe, unsigned char *id, unsigned char *round,const uint8_t harq_flag);
/* currently broken
int flexran_get_harq(mid_t mod_id, uint8_t cc_id, mid_t ue_id, frame_t frame,
sub_frame_t subframe, unsigned char *id, unsigned char *round,
uint8_t harq_flag); */
/* Uplink power control management*/
int flexran_get_p0_pucch_dbm(mid_t mod_id, mid_t ue_id, int CC_id);
int32_t flexran_get_p0_pucch_dbm(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
int flexran_get_p0_nominal_pucch(mid_t mod_id, int CC_id);
int8_t flexran_get_p0_nominal_pucch(mid_t mod_id, uint8_t cc_id);
int flexran_get_p0_pucch_status(mid_t mod_id, mid_t ue_id, int CC_id);
int32_t flexran_get_p0_pucch_status(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
int flexran_update_p0_pucch(mid_t mod_id, mid_t ue_id, int CC_id);
int flexran_update_p0_pucch(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
int flexran_get_threequarter_fs(mid_t mod_id, int CC_id);
uint8_t flexran_get_threequarter_fs(mid_t mod_id, uint8_t cc_id);
int flexran_get_hopping_mode(mid_t mod_id, int CC_id);
PUSCH_HOPPING_t flexran_get_hopping_mode(mid_t mod_id, uint8_t cc_id);
int flexran_get_hopping_offset(mid_t mod_id, int CC_id);
uint8_t flexran_get_hopping_offset(mid_t mod_id, uint8_t cc_id);
int flexran_get_n_SB(mid_t mod_id, int CC_id);
uint8_t flexran_get_n_SB(mid_t mod_id, uint8_t cc_id);
int flexran_get_phich_resource(mid_t mod_id, int CC_id);
int flexran_get_phich_resource(mid_t mod_id, uint8_t cc_id);
int flexran_get_enable64QAM(mid_t mod_id, int CC_id);
uint8_t flexran_get_enable64QAM(mid_t mod_id, uint8_t cc_id);
int flexran_get_phich_duration(mid_t mod_id, int CC_id);
PHICH_DURATION_t flexran_get_phich_duration(mid_t mod_id, uint8_t cc_id);
/*
* ************************************
......@@ -225,119 +232,124 @@ int flexran_get_phich_duration(mid_t mod_id, int CC_id);
/* Get timer in subframes. Controls the synchronization
status of the UE, not the actual timing
advance procedure. See TS 36.321 */
int flexran_get_time_alignment_timer(mid_t mod_id, mid_t ue_id);
TimeAlignmentTimer_t flexran_get_time_alignment_timer(mid_t mod_id, mid_t ue_id);
/* Get measurement gap configuration. See TS 36.133 */
int flexran_get_meas_gap_config(mid_t mod_id, mid_t ue_id);
Protocol__FlexMeasGapConfigPattern flexran_get_meas_gap_config(mid_t mod_id, mid_t ue_id);
/* Get measurement gap configuration offset if applicable */
int flexran_get_meas_gap_config_offset(mid_t mod_id, mid_t ue_id);
long flexran_get_meas_gap_config_offset(mid_t mod_id, mid_t ue_id);
/* DL aggregated bit-rate of non-gbr bearer
per UE. See TS 36.413 */
int flexran_get_ue_aggregated_max_bitrate_dl (mid_t mod_id, mid_t ue_id);
uint64_t flexran_get_ue_aggregated_max_bitrate_dl(mid_t mod_id, mid_t ue_id);
/* UL aggregated bit-rate of non-gbr bearer
per UE. See TS 36.413 */
int flexran_get_ue_aggregated_max_bitrate_ul (mid_t mod_id, mid_t ue_id);
uint64_t flexran_get_ue_aggregated_max_bitrate_ul(mid_t mod_id, mid_t ue_id);
/* Only half-duplex support. FDD
operation. Boolean value */
int flexran_get_half_duplex(mid_t ue_id);
/* currently broken
int flexran_get_half_duplex(mid_t ue_id); */
/* Support of intra-subframe hopping.
Boolean value */
int flexran_get_intra_sf_hopping(mid_t ue_id);
/* currently broken
int flexran_get_intra_sf_hopping(mid_t ue_id); */
/* UE support for type 2 hopping with
n_sb>1 */
int flexran_get_type2_sb_1(mid_t ue_id);
/* currently broken
int flexran_get_type2_sb_1(mid_t ue_id); */
/* Get the UE category */
int flexran_get_ue_category(mid_t ue_id);
/* currently broken
int flexran_get_ue_category(mid_t ue_id); */
/* UE support for resource allocation
type 1 */
int flexran_get_res_alloc_type1(mid_t ue_id);
/* currently broken
int flexran_get_res_alloc_type1(mid_t ue_id); */
/* Get UE transmission mode */
int flexran_get_ue_transmission_mode(mid_t mod_id, mid_t ue_id);
long flexran_get_ue_transmission_mode(mid_t mod_id, mid_t ue_id);
/* Boolean value. See TS 36.321 */
int flexran_get_tti_bundling(mid_t mod_id, mid_t ue_id);
BOOLEAN_t flexran_get_tti_bundling(mid_t mod_id, mid_t ue_id);
/* The max HARQ retransmission for UL.
See TS 36.321 */
int flexran_get_maxHARQ_TX(mid_t mod_id, mid_t ue_id);
long flexran_get_maxHARQ_TX(mid_t mod_id, mid_t ue_id);
/* See TS 36.213 */
int flexran_get_beta_offset_ack_index(mid_t mod_id, mid_t ue_id);
long flexran_get_beta_offset_ack_index(mid_t mod_id, mid_t ue_id);
/* See TS 36.213 */
int flexran_get_beta_offset_ri_index(mid_t mod_id, mid_t ue_id);
long flexran_get_beta_offset_ri_index(mid_t mod_id, mid_t ue_id);
/* See TS 36.213 */
int flexran_get_beta_offset_cqi_index(mid_t mod_id, mid_t ue_id);
long flexran_get_beta_offset_cqi_index(mid_t mod_id, mid_t ue_id);
/* Boolean. See TS36.213, Section 10.1 */
int flexran_get_simultaneous_ack_nack_cqi(mid_t mod_id, mid_t ue_id);
BOOLEAN_t flexran_get_simultaneous_ack_nack_cqi(mid_t mod_id, mid_t ue_id);
/* Boolean. See TS 36.213, Section 8.2 */
int flexran_get_ack_nack_simultaneous_trans(mid_t mod_id,mid_t ue_id);
BOOLEAN_t flexran_get_ack_nack_simultaneous_trans(mid_t mod_id, mid_t ue_id, uint8_t cc_id);
/* Get aperiodic CQI report mode */
int flexran_get_aperiodic_cqi_rep_mode(mid_t mod_id,mid_t ue_id);
CQI_ReportModeAperiodic_t flexran_get_aperiodic_cqi_rep_mode(mid_t mod_id,mid_t ue_id);
/* Get ACK/NACK feedback mode. TDD only */
int flexran_get_tdd_ack_nack_feedback(mid_t mod_id, mid_t ue_id);
long flexran_get_tdd_ack_nack_feedback_mode(mid_t mod_id, mid_t ue_id);
/* See TS36.213, section 10.1 */
int flexran_get_ack_nack_repetition_factor(mid_t mod_id, mid_t ue_id);
long flexran_get_ack_nack_repetition_factor(mid_t mod_id, mid_t ue_id);
/* Boolean. Extended buffer status report size */
int flexran_get_extended_bsr_size(mid_t mod_id, mid_t ue_id);
long flexran_get_extended_bsr_size(mid_t mod_id, mid_t ue_id);
/* Get number of UE transmission antennas */
int flexran_get_ue_transmission_antenna(mid_t mod_id, mid_t ue_id);
/* Get logical channel group of a channel with id lc_id */
int flexran_get_lcg(mid_t ue_id, mid_t lc_id);
long flexran_get_lcg(mid_t ue_id, mid_t lc_id);
/* Get direction of logical channel with id lc_id */
int flexran_get_direction(mid_t ue_id, mid_t lc_id);
/*Get downlink frequency*/
uint32_t flexran_agent_get_operating_dl_freq (mid_t mod_id, int cc_id);
uint32_t flexran_agent_get_operating_dl_freq(mid_t mod_id, uint8_t cc_id);
/*Get uplink frequency*/
uint32_t flexran_agent_get_operating_ul_freq (mid_t mod_id, int cc_id);
uint32_t flexran_agent_get_operating_ul_freq(mid_t mod_id, uint8_t cc_id);
/*Get eutra band*/
int flexran_agent_get_operating_eutra_band (mid_t mod_id, int cc_id);
uint8_t flexran_agent_get_operating_eutra_band(mid_t mod_id, uint8_t cc_id);
/*Get downlink ref signal power*/
int flexran_agent_get_operating_pdsch_refpower (mid_t mod_id, int cc_id);
int8_t flexran_agent_get_operating_pdsch_refpower(mid_t mod_id, uint8_t cc_id);
/*Get uplink power*/
int flexran_agent_get_operating_pusch_p0 (mid_t mod_id, int cc_id);
long flexran_agent_get_operating_pusch_p0(mid_t mod_id, uint8_t cc_id);
/*set the dl freq */
void flexran_agent_set_operating_dl_freq (mid_t mod_id, int cc_id, uint32_t dl_freq_mhz);
void flexran_agent_set_operating_dl_freq(mid_t mod_id, uint8_t cc_id, uint32_t dl_freq_mhz);
/* set the ul freq */
void flexran_agent_set_operating_ul_freq (mid_t mod_id, int cc_id, int32_t ul_freq_offset_mhz);
void flexran_agent_set_operating_ul_freq(mid_t mod_id, uint8_t cc_id, int32_t ul_freq_mhz_offset);
/*set the the band */
void flexran_agent_set_operating_eutra_band (mid_t mod_id, int cc_id);
void flexran_agent_set_operating_eutra_band(mid_t mod_id, uint8_t cc_id, uint8_t eutra_band);
/* set the bandwidth */
void flexran_agent_set_operating_bandwidth (mid_t mod_id, int cc_id, int bandwidth);
/* set the bandwidth (in RB) */
void flexran_agent_set_operating_bandwidth(mid_t mod_id, uint8_t cc_id, uint8_t N_RB);
/*set frame type*/
void flexran_agent_set_operating_frame_type (mid_t mod_id, int cc_id, int frame_type);
void flexran_agent_set_operating_frame_type(mid_t mod_id, uint8_t cc_id, lte_frame_type_t frame_type);
/*RRC status flexRAN*/
int flexran_get_rrc_status(const mid_t mod_id, const rnti_t rntiP);
uint8_t flexran_get_rrc_status(const mid_t mod_id, const rnti_t rntiP);
/***************************** PDCP ***********************/
......@@ -399,28 +411,30 @@ uint32_t flexran_get_pdcp_rx_oo(const mid_t mod_id, const mid_t ue_id, const lc
/*********************RRC**********************/
/*Get primary cell measuremeant id flexRAN*/
int flexran_get_rrc_pcell_measid(mid_t mod_id, mid_t ue_id);
MeasId_t flexran_get_rrc_pcell_measid(mid_t mod_id, mid_t ue_id);
/*Get primary cell RSRP measurement flexRAN*/
int flexran_get_rrc_pcell_rsrp(mid_t mod_id, mid_t ue_id);
float flexran_get_rrc_pcell_rsrp(mid_t mod_id, mid_t ue_id);
/*Get primary cell RSRQ measurement flexRAN*/
int flexran_get_rrc_pcell_rsrq(mid_t mod_id, mid_t ue_id);
float flexran_get_rrc_pcell_rsrq(mid_t mod_id, mid_t ue_id);
/* Get RRC neighbouring measurement */
int flexran_get_rrc_num_ncell(mid_t mod_id, mid_t ue_id);
/*Get physical cell id*/
int flexran_get_rrc_neigh_phy_cell_id(mid_t mod_id, mid_t ue_id, int cell_id);
PhysCellId_t flexran_get_rrc_neigh_phy_cell_id(mid_t mod_id, mid_t ue_id, int cell_id);
/*Get RSRP of neighbouring Cell*/
int flexran_get_rrc_neigh_rsrp(mid_t mod_id, mid_t ue_id, int cell_id);
float flexran_get_rrc_neigh_rsrp(mid_t mod_id, mid_t ue_id, int cell_id);
/*Get RSRQ of neighbouring Cell*/
int flexran_get_rrc_neigh_rsrq(mid_t mod_id, mid_t ue_id, int cell_id);
float flexran_get_rrc_neigh_rsrq(mid_t mod_id, mid_t ue_id, int cell_id);
/*Get MCC PLMN identity neighbouring Cell*/
int flexran_get_rrc_neigh_plmn_mcc(mid_t mod_id, mid_t ue_id, int cell_id);
/* currently not implemented
int flexran_get_rrc_neigh_plmn_mcc(mid_t mod_id, mid_t ue_id, int cell_id); */
/*Get MNC PLMN identity neighbouring Cell*/
int flexran_get_rrc_neigh_plmn_mnc(mid_t mod_id, mid_t ue_id, int cell_id);
\ No newline at end of file
/* currently not implemented
int flexran_get_rrc_neigh_plmn_mnc(mid_t mod_id, mid_t ue_id, int cell_id); */
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